Structural properties and electrochemical performance V-doping Li_2Ti_3O_7 and Li_4Ti_5O_(12) anode materials

Demirel S.; Altin S.

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Structural properties and electrochemical performance V-doping Li_2Ti_3O_7 and Li_4Ti_5O_(12) anode materials

机译：结构特性和电化学性能V掺杂Li_2Ti_3O_7和Li_4Ti_5O_（12）阳极材料

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摘要

Li2Ti3-xVxO7 and Li4Ti5-xVxO12 (x=0-0.1) are successfully fabricated using the conventional solid-state reaction technique. The battery performance of the cells showed that the highest capacity of Li2Ti3-xVxO7 was obtained for the sample of x=0.025 which has 153mAh/g and 123mAh/g for 1 and 1000, respectively. In addition to this, the best capacity of the cell of Li4Ti4.5V0.5O12 was found as 202mAh/g for the first cycle and it was decreased to 194mAh/g for 1000 cycles. To understand the capacity fade mechanism, we performed ex situ structural experiments and it is found that the unit cell of the crystalline phase is directly affected to battery performance. We concluded that in this study the V-substituted samples have a potential for next-generation battery fabrication since it may cause the increase of the stability of the cells.

机译：使用常规的固态反应技术成功地制造了Li2Ti3-xVxO7和Li4Ti5-xVxO12（x = 0-0.1）。电池的电池性能表明，对于x = 0.025的样品可获得最高容量的Li2Ti3-xVxO7，其样品的1和1000分别为153mAh / g和123mAh / g。除此之外，发现Li4Ti4.5V0.5O12电池的最佳容量在第一个循环中为202mAh / g，在1000个循环中降至194mAh / g。为了了解容量衰减机理，我们进行了异位结构实验，发现晶相的晶胞直接影响电池性能。我们得出的结论是，在这项研究中，V取代的样品具有制造下一代电池的潜力，因为它可能导致电池稳定性的提高。

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《Journal of materials science 》 |2019年第12期| 11665-11675| 共11页
作者
Demirel S.; Altin S.;
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作者单位

Igdir Univ, Elect & Energy Dept, TR-76000 Igdir, Turkey;

Inonu Univ, Dept Phys, TR-44280 Malatya, Turkey;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
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正文语种 eng
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Structural properties and electrochemical performance V-doping Li_2Ti_3O_7 and Li_4Ti_5O_(12) anode materials

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